KR101879924B1 - Offset number setting device - Google Patents

Abstract

(EN) An offset number setting device capable of easily and freely setting an offset number for a tool (8) attached to a turret surface (6) along a tool holder (7). The display linkage means 19 causes the display device 12 to display the turret surface selection screen 20 and the tool holder selection screen 29 is displayed on the display device 12 by the selection of the turret surface 6. [ And the offset number setting screen 30 is displayed on the display device 12 by the selection of the tool holder 7 so that the tool 8 is mounted on the predetermined tool 8 An offset number is set in connection with the selection of the turret surface (6).

Description

Offset number setting device {OFFSET NUMBER SETTING DEVICE}

The present invention relates to an offset number setting device.

Conventionally, when a predetermined tool is mounted on a tool holder mounted on a predetermined turret surface of the turret, the tool number (equivalent to the present offset number) set on the tool and the turret surface number of the turret surface on which the tool is mounted A turret tool selection command method for selecting the tool is known (see, for example, Patent Document 1).

Patent Document 1: Japanese Patent No. 3207125 (page 3, Fig. 5)

However, depending on the machining, the turret surface is equipped with various tools through various tool holders. For this reason, in order to select a tool necessary for machining by the above-mentioned turret tool selection command method, an offset number setting device capable of easily and freely setting an offset number to a tool attached along a tool holder on a turret surface is required there was.

The offset number setting device of the present invention for solving the above problems is characterized by comprising a turret surface selection screen (20) for selecting a turret surface (6) formed on the turret (3) A tool holder selection screen 29 for selecting the holder 7 and a display 12 for displaying an offset number setting screen 30 for setting an offset number for the tool 8 mounted on the selected tool holder 7, And a data processing section 39 for processing information inputted in each screen and the data processing section 39 displays the tool holder selection screen 29 by selecting the turret surface 6 And a display linkage unit 19 for displaying the offset number setting screen 30 by the selection of the tool holder 7 and linking the selected turret surface 6 and the tool holder 7, For the tool 8 mounted on the tool holder 7, setting the offset number is called the first And a gong.

Secondly, the data processing unit 39 may include an offset number selection screen (not shown) for displaying an offset number so as to enable selection of an offset number that has not been set in the setting of the offset number by the offset number setting screen 30 And an offset number selection screen display section (22) for displaying on the display section (12).

Third, the data processing unit 39 is characterized in that the offset number setting screen 30 is provided with a storage unit 40 in which the offset numbers are stored in association with the selected turret surface and the tool holder .

According to the structure of the present invention configured as described above, the turret surface can be selected by the turret surface selection screen displayed on the display unit, and the tool holder selection screen displayed by selecting the turret surface can be mounted on the selected turret surface The offset number is set to a predetermined tool on the basis of the offset number setting screen displayed by selection of the tool holder so that the offset number corresponding to the selection of the turret surface to be mounted is set for the tool, There is an effect that workers can set them freely and easily.

Accordingly, without increasing the usable offset number, the operator can freely set the offset number for the tool to be used in the machining, and set the predetermined tool to the offset number set on the tool and the turret surface The tool selection number based on the surface number makes it easy to select.

On the other hand, in the setting of the offset number by the offset number setting screen, an offset number selection screen display section for displaying the offset number selection screen displaying the offset number on the display section is formed so that the offset number which is not set can be selected Thus, in setting the offset number, it is possible to easily input an offset number that is not set by the offset number selection screen displayed on the display unit.

And an offset number set on the offset number setting screen is stored in association with the selected turret surface and the tool holder so that the offset number of the tool set in association with the selected turret surface and the tool holder can be referred to And it is possible to easily correct the position of the selected tool based on the offset value corresponding to the set offset number.

1 is a schematic perspective view of an automatic lathe.
2 is a block diagram showing a main part of the control means portion.
3 is a schematic view of a turret showing a relationship between a turret surface and a turret surface number.
4 is a display of the turret surface selection screen.
5 is a diagram showing a tool holder selection screen.
6 is a display of the offset number setting screen.
7 is a display of an offset number selection screen.
8 is a flowchart showing the operation of the offset number setting device.
Fig. 9 is a display of the turret surface selection screen in which the offset number has been set.
Fig. 10 is a display of the offset correction value input screen.

1 is a schematic perspective view of an automatic lathe as a machine tool having an offset number setting device according to the present invention. A main shaft 2 and a turret 3 are formed on a bed 1 of an automatic lathe. The main shaft 2 is rotatably supported by a pivotal support about the axis. The turret 3 is supported on the cutting tool pedestal body 4 in a freely rotatable manner. The cutting tool pedestal main body 4 is provided so as to be movable in the X-axis direction and the Y-axis direction orthogonal to the Z-axis direction and the Z-axis direction, which are the axial direction of the main shaft 2.

The turret 3 can move in the Z-axis direction, the X-axis direction, and the Y-axis direction by the movement of the cutting tool pedestal main body 4. [ The turret 3 has a plurality of turret surfaces 6 formed on the outer circumferential surface thereof. Various types of tool holders 7 are detachably attached to each of the turret surfaces 6. A tool 8 for machining is attached to each tool holder 7. The tool 8 is mounted through a mounting portion formed in the tool holder 7.

The rotation drive of the main spindle 2, the swivel drive of the turret 3 and the movement of the turret 3 (the cutting tool pedestal body 4) are controlled by the control means 9 comprising the NC device shown in Fig. 2 Respectively. The control means (9) is provided with an operation panel (11) for operating the control means (9). The operation panel 11 is provided with a monitor 12 as a switch or a display device, a menu switch 25 corresponding to the menu bar 26 displayed on the monitor 12, Respectively.

In the control means 9, a machining program 13 is inputted in advance. The control means 9 includes a main shaft motor for rotating the main shaft 2, a turret pivoting motor for rotating the turret 3, a motor control means for controlling a turret moving motor for driving the turret 3, (14).

In this automatic lathe, the control means 9 controls the motors and the like through the motor control means 14 on the basis of the machining program 13, and by the tool 8 attached to the turret 3, It is possible to automatically perform a predetermined machining on the material held on the substrate 2. The tool 8 required for machining is selected by turning and moving the turret 3.

As shown in Fig. 3, turret surface numbers (T11 to T18) are assigned in advance to each turret surface 6. Each turret surface number is set not to overlap. For each tool 8 attached to each tool holder 7 mounted on each turret surface 6, an offset number is set in advance by the present offset number setting device.

The offset number corresponds to an offset value (correction value) for correcting the position of the tool 8 whose offset number is set with respect to the coordinate position assumed in the machining program 13, Is stored in the value storage means (40). The control means 9 is configured to select the predetermined tool 8 by the tool selection number in which the turret surface number on which the tool 8 is mounted and the offset number of the tool 8 are continuous.

A tool mounted on the turret face number T13 and set to an offset number of 22 is selected by writing the tool selection number of T1322 in the machining program 13. [ In this case, the control means 9 turns the turret 3, draws the turret surface 6 of the turret face number T13 to a predetermined angular position to search out the selected tool 8, 40, the coordinate system of the X-axis, the Y-axis, and the Z-axis is set based on the preset offset value for the offset number 22. Thus, the turret 3 can perform the machining of the material by correcting the position of the selected tool 8 by moving commands of the X-axis, the Y-axis and the Z-axis.

On the other hand, the control means 9 turns the turret 3 every time the tool selection number is read. However, when the same turret surface is selected, the relative rotation angle becomes 0 and the rotation is 0 degree, so that the turning of the turret 3 may not actually take place.

The present offset number setting apparatus is constituted by a control means (9). The control means 9 is provided with a data processing means 39. The data processing means 39 is provided with a turntable surface selection screen 39 for displaying a turret surface selection screen for selecting the turret surface 6 on the monitor 12 A tool holder selection screen display means (17) for displaying a screen display means (16) and a tool holder selection screen for selecting the tool holder (7) on the monitor (12), and an offset number setting screen And an offset number setting screen display means 18 for displaying on the monitor 12 are provided.

The turret surface selection screen display means 16, the tool holder selection screen display means 17 and the offset number setting screen display means 18 are linked by the display linkage means 19 provided in the data processing means 39 . On the other hand, the data processing means 39 is provided with a tool holder database 21 storing the name, size, shape and the like of the tool holder 7 which can be mounted on each turret face 6, An offset number selection screen display means 22 and an offset value storage means 40 for displaying an offset number selection screen for displaying an offset number on the monitor 12 when the offset number is set.

As shown in Fig. 4, the turret surface selection screen 20 has a turret surface list 23 for displaying each turret surface 6 of the turret 3 in a list form with a turret surface number. The predetermined turret surface number displayed on the turret surface list 23 can be displayed in color by the cursor key 24 provided on the operation panel 11. [ The turret surface number on which the predetermined tool 8 is mounted is displayed in color and the menu key corresponding to the " holder set 27 " of the menu bar 26 displayed on the monitor 12 is pressed (turned ON) , It is possible to select the turret surface 6 corresponding to the turret surface number for color display. The guidance of the job or the like is displayed on the guidance display unit 50.

The tool holder selection screen 29 shown in Fig. 5 can select the tool holder 7 to be mounted on the turret surface 6 selected by the turret surface selection screen 20. Fig. The tool holder selection screen 29 of the present embodiment is multi-window, and is superimposed on the turret surface selection screen 20. [

The tool holder selection screen 29 includes a turret surface number display portion 31 for displaying the selected turret surface 6 by the turret surface number and a tool holder 7 for mounting the selected turret surface 6 on the turret surface 6 And a tool holder list display section 32 for displaying in a list form. The tool holder list display section 32 displays the name of the tool holder 7 on the basis of the tool holder database 21.

The predetermined key holder 7 displayed on the tool holder list display section 32 can be displayed in color by the cursor key 24. [ The color-marked tool holder 7 is graphically displayed in the holder display area 33 based on the information of the tool holder database 21. [

The tool holder 7 to be mounted on the selected turret face 6 is displayed in color and the tool holder (not shown) which is displayed in color by pressing the " input key 34 " provided on the operation panel 11 7) can be selected. The guidance of the work and the like are displayed on the guidance display section 35. 6, the selected tool holder display section 36 displays the name and type of the selected tool holder 7 on the basis of the tool holder database 21, do. The tool holder 7 can be given a tool holder number. As the tool holder number, a number obtained by digitizing the name and type of the tool holder 7 or a format such as " CG73M000 " can be used.

6, when the predetermined tool holder 7 is selected, the tool holder selection screen 29 is arranged so that the offset number input section 37, according to the mounting portion of the selected tool holder 7, So that an input is possible, thereby constituting an offset number setting screen 30. [ The offset number setting screen 30 can set the offset number of the tool 8 mounted on the mounting portion of the tool holder 7 selected by the tool holder selection screen 29. [

The offset number input section 37 is displayed in a state in which the input column 38 can be input corresponding to each of the mounting portions of the selected tool holder 7. [ The offset number setting screen 30 can cause the cursor keys 24 to color-display the input box 38 corresponding to a predetermined mounting portion. As shown in Fig. 6 and the like, a tool holder number such as " H1 " and " H2 " The guidance of the job and the like are displayed on the guidance display section 51.

(39) of the menu bar 26 in a state in which the input box 38 corresponding to the mounting portion on which the offset number setting tool 8 is mounted is colored, , The display of the offset number is made, and the offset number selection screen 42 shown in Fig. 7 can be displayed. The offset number selection screen 42 displays a list of offset numbers that can be set for the tool 8 on the basis of the offset value storage means 40 so as to distinguish between the setting end and the non-setting.

In the present embodiment, the offset numbers that have been set are laid out and displayed. The offset number selection screen 42 of this embodiment is multi-window, and is superimposed on the offset number setting screen 30. The offset number selection screen 42 allows the cursor key 24 to color-display the offset number displayed on the offset number selection screen 42. [

The offset number to be set in the input column 38 is displayed in the color with the predetermined input column 38 displayed in color so that the offset number of the offset number to the input column 38 Input state. However, the laid out offset number can not be displayed in color and can not be input to the input column 38. [

In this state, when the "input key" 34 is pressed to request the setting of the offset number, an offset number for color display is set for the tool 8 mounted on the mounting portion corresponding to the input box 38. [ The guidance of the work and the like are displayed on the guidance display section 52.

The data processing means 39 associates the set offset number with the tool holder number of the tool holder 7 on which the tool 8 is mounted, the mounting portion number, and the turret surface number of the turret surface 6, And stores it in the storage means (40). In the offset value storage means 40, a turret surface number, a tool holder number, a mounting portion number, an offset number and an offset value are stored for each offset number.

When the setting operation of the offset number by the offset number setting device is started, as shown in the flowchart of Fig. 8, the display linkage means 19 first operates the turret surface selection screen display means 16 , The turret surface selection screen 20 is displayed, and the flow advances to step S2 to determine whether or not the turret surface 6 is selected. If the turret surface 6 is selected, the process proceeds to step S3 to activate the tool holder selection screen display means 17 to display the tool holder selection screen 29. In step S4, Is selected.

When the tool holder 7 is selected, the process proceeds to step S5, and the offset number setting screen display means 18 is operated to display the offset number setting screen 30 based on the tool holder selection screen 29. In step S6 And determines whether or not there is an offset number display request. If there is an offset number display request in step S6, the flow advances to step S7 to operate the offset number selection screen display means 22 to display the offset number selection screen 42, and in step S8, Is input.

If there is no display request of the offset number in step S6, the process proceeds from step S6 to step S8, and the offset number selection screen 42 is not displayed. If an offset number is input in step S8, the request for setting is confirmed in step S9, and if there is a setting request, the inputted offset number is set in step S10.

After the offset number is set in step S10, the end of the setting of the offset number for the tool 8 attached to the tool holder 7 selected in step S4 is confirmed in step S11. In the case where the process is not finished in the step S11, for example, when the offset number is set continuously, the process returns to the step S5. In the case of ending in step S11, ending is confirmed in step S12, and in the case of ending, the setting operation of the offset number by the offset number setting device is ended.

When the offset number is not set in step S12, for example, the offset number is set on the other turret surface 6, the process returns to step S1 to execute step S1 to step S11, The offset number can be set for the tool 8 to be mounted on the tool 8.

The operator can set the offset number of the tool 8 simply and freely in connection with the selection of the turret surface 6 by selecting the turret surface on which the tool 8 is mounted. Therefore, even when a plurality of tools 8 can be attached to one turret surface 6, an offset number can be freely set only for the tool 8 required for machining, and without increasing the number of available offsets, The number can be efficiently allocated.

9, when the offset number is set, the turret surface selection screen 20 is displayed on the turret surface list 23 on the turret surface 6 on the basis of the offset value storage means 40 The tool holder display section 43 displays the name of the selected tool holder 7 and the tool holder 7 mounted on the predetermined turret surface 6 based on the information of the tool holder database 21 And is configured to be graphically displayed. The graphic display of the tool holder 7 is performed by color displaying the turret surface 6 on which the tool holder 7 is selected in the turret surface list 23. On the other hand, in the turret surface list 23, "no tool holder" is displayed for the turret surface 6 in which the tool holder 7 is not selected.

In the offset display section 45 displayed on the turret surface selection screen 20, an offset value corresponding to the offset number can be input. The offset display section 45 is provided with a region (a "core" region, a "diameter" region, a "region", and a region) in which an offset value can be input for each of the offset numbers corresponding to the turret face number, Length " region, etc.) are provided. By pressing the "TAB" key of the cursor key 24 provided on the operation panel 11 with the tool holder 7 selected on the turret surface selection screen 20, 45, the cursor is moved to the area where the offset value of the offset value can be input, the coordinates of the Y axis of the offset value, the coordinates of the X axis in the "diameter" area, and the coordinates of the Z axis in the "length" Can be input. The input offset value is stored in the offset value storage means (40).

The offset value inputted for the offset number is displayed on the offset display section 45. [ The worker confirms the graphic display of the tool holder 7 displayed on the tool holder display section 43 and attaches the tool holder 7 to the turret face 6 or attaches the tool 8 to the tool holder 7 Can be easily operated.

The control means 9 can easily correct the position of the tool 8 by acquiring the offset value from the offset value storage means 40 based on the offset number set in the tool 8 to be used.

The offset number setting device according to the present invention includes an offset correction value input screen 44 for displaying on the monitor 12 an offset correction value input screen 44 capable of inputting a correction value for an offset value corresponding to the offset number shown in FIG. A screen display means 46 is provided. The offset correction value input screen 44 is displayed by pressing (turning on) the menu key corresponding to the "turret off" 48 of the menu bar 26 on the automatic operation screen of the automatic lathe.

The offset correction value input screen 44 is provided with an offset correction value input part 47 (hereinafter referred to as " offset correction value input part ") for inputting a correction value for an offset value for each of the offset numbers corresponding to the turret surface number, ). The correction value for the offset value can be easily inputted to each offset number for each turret surface 6 by the offset correction value input part 47 so that the machining error due to the abrasion of the tool 8 or the like can be corrected .

[Cross reference of related application]

This application claims priority based on patent application No. 2013-82623, filed on April 11, 2013, to the Japanese Patent Office, the entire disclosure of which is incorporated herein by reference in its entirety.

Claims (3)

A plurality of tool holders are mounted on each of a plurality of turret surfaces formed on the turret, and tools mounted on the tool holders, which can be mounted with a number exceeding a settable number of offset numbers by mounting various tools on each of the mounting portions formed in the tool holders An offset number setting apparatus capable of setting an offset number,
A tool holder selection screen for selecting a tool holder that can be mounted on the selected turret face and a tool holder selection screen for selecting a tool holder for each mounting portion of the selected tool holder within a range of the number of settable offset numbers, A display unit for displaying an offset number setting screen for setting an offset number for a tool mounted on the screen, and a data processing unit for processing the information inputted in each screen,
Wherein the data processing unit comprises:
A display linkage unit for displaying the tool holder selection screen by selection of the turret surface and displaying the offset number setting screen by selection of the tool holder and its mounting unit; And an offset number selection screen display unit for displaying an offset number selection screen displaying an offset number on the display unit so that an offset number that has not been set can be selected in the setting of the offset number,
Wherein the data processing unit sets an offset number for a tool mounted on the tool holder in association with the selected turret surface, the selected tool holder, and the selected mounting portion. delete The data processing apparatus according to claim 1,
Wherein the offset number set on the offset number setting screen is stored in association with the selected turret surface, the selected tool holder, and the selected mounting portion.

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